CN105538916A - Regenerative ink box, regenerative chip, printer-system communication method and ink-box regenerating method - Google Patents

Abstract

The invention relates to the field of printers, in particular to a regenerative ink box, a regenerative chip, a printer-system communication method and an ink-box regenerating method. By means of the regenerative ink box, the technical problem that recycling between different series of ink boxes can not be achieved in the prior art is solved. The regenerative ink box comprises an ink box body provided with an original chip and a regenerative chip, and the original chip corresponds to a first-model printer. The regenerative ink box is characterized in that the ink box body is matched with a second-model printer in structure; the regenerative chip is electrically connected with the original chip and enables the regenerative ink box to be matched with the second-model printer, and the regenerative chip at least enables the regenerative ink box to be communicated with the second-model printer. By means of the regenerative ink box, recycling barriers of different series of ink boxes in the ink-box recycling market are broken through, the recycling cost of the ink boxes is reduced, and the use ratio of the ink boxes is increased.

Description

Ink horn of regeneration, regeneration chip, printer system communication means, ink cartridge regenerating method

Technical field

The present invention relates to printer field, particularly a kind of ink horn of regeneration, regeneration chip, printer system communication means, ink cartridge regenerating method.

Background technology

Enhancing along with people's environmental consciousness and the requirement to resource circulation utilization more and more higher, the regeneration chip utilization rate on the market for print cartridge has had big upgrade, and increasing discarded print cartridge is reused, and reduces the pollution to environment.

At present print cartridge on the market have different series and model point, if the chip of two print cartridges and the contact of printer inconsistent, then think that these two print cartridges are the print cartridge of different series.Have among same a series of print cartridge that same printer gets an electric shock and also have the differentiation of different model, but the outward appearance of the same series of chambers of different model, chip and identical with the contact point of printer.Due to the outward appearance of the print cartridge of different series, chip and different from the contact point of printer, the print cartridge of different series and the communication protocol of printer are also likely different.Therefore, ink horn of regeneration is in the market generally just for the regeneration of the print cartridge with a series of or same model.But because the accounting in the print cartridge market of different series or different model is different, the print cartridge price of recovery, quantity and regeneration market accounting are different.The discarded print cartridge unit take-back cost of some series is high, and quantity is few, well cannot meet the demand in regeneration market; The waste gas print cartridge unit take-back cost of some series is low, quantity is many, and the market demand is little.Result in the unbalanced supply-demand that print cartridge reclaims market, be unfavorable for the recycling of print cartridge.

Summary of the invention

The present invention is according to the technical problem that cannot realize the regeneration between different series print cartridge in prior art, a kind of ink horn of regeneration is proposed, comprise the cartridge body and regeneration chip that are provided with former chip, described former chip is corresponding with the first model printer, it is characterized in that: the structure of described cartridge body and the structure of the second model printer match; Described regeneration chip and described former chip electrical connect and described ink horn of regeneration and the second model printer are matched, and described regeneration chip at least makes described ink horn of regeneration can communicate with described second model printer.

Further, described former chip comprises the former chip contacts for being electrically connected with described first model printer; Described regeneration chip comprises the second contact, the first contact and is electrically connected the change-over circuit of described second contact and described first contact; Described second contact is used for being electrically connected with described second model printer, described first contact is electrically connected with described former chip contacts, and described change-over circuit can receive and the signal of telecommunication changed from described second contact and described first contact makes described ink horn of regeneration can respond the control of described second model printer by the authentication checks of described second model printer.

Further, described change-over circuit comprises data modification unit or data replacement unit; The ink amount data stored in the described former chip of described data modification unit amendment and cartridge model data, make described ink horn of regeneration can by described second model printer certification, described data modification unit is electrically connected with described second contact, and described data modification unit is electrically connected with described first; Described data replacement unit replaces the ink amount data and cartridge model data that store in described former chip, makes described ink horn of regeneration can by described second model printer certification, and described data replacement unit is electrically connected with described second contact.

Further, described change-over circuit comprises spout signal converting unit, and described spout signal converting unit is electrically connected with described second contact, and described spout signal converting unit is electrically connected with described first contact; Described spout signal converting unit receives the second model printer head control signal from described second contact, and described second model printer head control signal is converted to the first model printer head control signal of the shower nozzle control law meeting described first model printer accordingly and exports through described first contact.

Further, the described change-over circuit electrical quantity comprised for adjusting described former chip makes described ink horn of regeneration can by the electrical quantity adjustment unit of the electrical parameters detection of described second model printer, and described electrical quantity Circuit tuning is electrically connected with described first contact.

Further, described change-over circuit comprises and makes described ink horn of regeneration can by the logic conversion unit of the logic detection of described second model printer, described logic conversion unit is electrically connected with described second contact, and described logic conversion unit is electrically connected with described first contact.

Further, described logic conversion unit comprises detection signal logical operation module and feedback signal logical operation module; Described logic conversion unit receives the second model printer logic detection signal from described second contact, and the first model printer logic detection signal being converted to the logic detection rule meeting described first model printer accordingly through described detection signal logical operation module exports through described first contact; The first model printer logic that described logic conversion unit receives from the first contact detects feedback signal, and the second model printer logic being converted to the logic detection rule meeting described second model printer accordingly through described feedback signal logical operation module detects feedback signal through described second contact output.

Further, described regeneration chip is provided with the substrate for carrying described change-over circuit, and the one side of described substrate arranges the adhesive film being used for being fixedly connected with described cartridge body.

Further, described substrate arranges the locating hole being used for locating with described cartridge body.

Further, described substrate arranges test contact, and described test contact is electrically connected with described change-over circuit.

Present invention also offers a kind of regeneration chip, for being the ink horn of regeneration mated with the second model printer by the former ink box regenerating mated with the first model printer; Described regeneration chip comprises the second contact, the first contact and is electrically connected the change-over circuit of described second contact and described first contact; It is characterized in that: described second contact is used for being electrically connected with described second model printer, described first contact is used for being electrically connected with the former chip contacts of described former print cartridge, and described change-over circuit receives and the signal of telecommunication changed from described second contact and described first contact makes described ink horn of regeneration can respond the control of described second model printer by the authentication checks of described second model printer.

Further, described change-over circuit comprises data modification unit or data replacement unit; Described data modification unit is for revising the ink amount data and cartridge model data that store in described former chip, make described ink horn of regeneration can by described second model printer certification, described data modification unit is electrically connected with described second contact, and described data modification unit is electrically connected with described first contact; Described data replacement unit replaces the ink amount data and cartridge model data that store in described former chip, makes described ink horn of regeneration can by described second model printer certification, and described data replacement unit is electrically connected with described second contact.

Further, described change-over circuit comprises spout signal converting unit, and described spout signal converting unit is electrically connected with described second contact, and described spout signal converting unit is electrically connected with described first contact; Described spout signal converting unit receives the second model printer head control signal from described second contact, and described second model printer head control signal is converted to the first model printer head control signal of the shower nozzle control law meeting described first model printer accordingly and exports through described first contact.

Further, described change-over circuit comprises the electrical quantity for adjusting described former chip, make described ink horn of regeneration can by the electrical quantity adjustment unit of the electrical parameters detection of described second model printer, described electrical quantity Circuit tuning be electrically connected with described first contact.

Further, described change-over circuit comprises and makes described ink horn of regeneration can by the logic conversion unit of the logic detection of described second model printer, described logic conversion unit is electrically connected with described second contact, and described logic conversion unit is electrically connected with described first contact.

Further, described logic conversion unit comprises detection signal logical operation module and feedback signal logical operation module; Described logic conversion unit receives the second model printer logic detection signal from described second contact, and the first model printer logic detection signal being converted to the logic detection rule meeting described first model printer accordingly through described detection signal logical operation module exports through described first contact; The first model printer logic that described logic conversion unit receives from the first contact detects feedback signal, and the second model printer logic being converted to the logic detection rule meeting described second model printer accordingly through described feedback signal logical operation module detects feedback signal through described second contact output.

Further, described regeneration chip is provided with the substrate for carrying described change-over circuit, and the one side of described substrate arranges the adhesive film being used for being fixedly connected with described cartridge body.

Further, described substrate arranges the locating hole being used for locating with described cartridge body.

Further, described substrate arranges test contact, and described test contact is electrically connected with described change-over circuit.

The present invention also provides a kind of printer system communication means, be applicable to the printer system comprising the second model printer and ink horn of regeneration, described ink horn of regeneration comprises the former chip and regeneration chip that match with the first model printer, described second model printer is electrically connected with described regeneration chip, and described former chip is electrically connected with described regeneration chip; Described regeneration chip receives and changes the signal of telecommunication from described second model printer and described former chip, makes described ink horn of regeneration also can be responded the control of described second model printer by the authentication checks of described second model printer; It is characterized in that: the ink amount data and cartridge model data that store in described former chip are revised or replaced to described regeneration chip, make the ink amount data of described ink horn of regeneration be non-black total number certificate, the cartridge model data of described ink horn of regeneration are mated with described second model printer.Wherein, non-black total number certificate, represents that the excess ink of print cartridge is greater than the ink amount data of the minimum ink quantity of ink that printer allows.

Further, described regeneration chip receives the second model printer head control signal from described second model printer and described second model printer head control signal is converted to the first model printer head control signal of the shower nozzle control law meeting described first model printer accordingly, is sent to described former chip.

Further, described regeneration chip receives the second model printer logic detection signal from described second model printer, and described second model printer logic detection signal is converted to the first model printer logic detection signal of the logic detection rule meeting described first model printer accordingly, be sent to described former chip; The first model printer logic that described regeneration chip receives from described former chip detects feedback signal, and described first model printer logic is detected the second model printer logic detection feedback signal that feedback signal is converted to the logic detection rule meeting described second model printer accordingly, and be sent to described second model printer.

The present invention also provides a kind of ink cartridge regenerating method, for being the target print cartridge matched with the second model printer by the former ink box regenerating matched with the first model printer; It is characterized in that this ink cartridge regenerating method comprises: print cartridges structure adjusts, and the print cartridge size adjusting described former print cartridge is consistent with described target print cartridge with nozzle position; Cartridge filling, fills ink in the cartridge of described former cartridge body; Ink box chip adjusts, and the chip contacts adjusting former print cartridge is consistent with described target print cartridge.

Further, the adjustment of described print cartridges structure comprises: print cartridge size adjusting, by cutting and/or the print cartridge size of the described former print cartridge of Joining Technology adjustment and the print cartridge of described target print cartridge measure-alike.

Further, described print cartridges structure adjustment comprises: nozzle position adjusts, the nozzle position of described former print cartridge is adjusted identical with the nozzle position of described target print cartridge or located by fixture and mill is carried out to described former print cartridge by described former print cartridge and cut or supplement by fill process, identical with the nozzle position of described target print cartridge with the nozzle position realizing former print cartridge.

Further, described ink box chip adjustment comprises:

A) clear up contact, remove spot and the oxide layer on the surface of the chip contacts of described former print cartridge;

B) adhering chip, affixes to regeneration chip on described former print cartridge, and the first contact of described regeneration chip is contacted with the chip contacts of described former print cartridge.

Further, described ink box chip adjustment also comprises:

C) weld, the chip of regeneration chip with described former print cartridge is welded, the first contact of described regeneration chip is electrically connected with the chip contacts of described former print cartridge.

By ink box regenerating market being reclaimed quantity is comparatively large, price is lower, corresponding with the first model printer former print cartridge, be regenerated as by described ink cartridge regenerating method ink box regenerating market reclaims quantity is less, price is lower, corresponding with the second model printer target print cartridge: the structure of described ink cartridge regenerating method to described former print cartridge adjusts, and makes the target print cartridge formed after regeneration can install with described second model printer; And by installing regeneration chip on described former print cartridge, adjust the chip of described former print cartridge, the contact of the target print cartridge formed after regeneration and the second model printer are matched.The adjustment of described regeneration chip to described former print cartridge comprises:

1. former chip contacts adjustment, the first contact of described regeneration chip is corresponding with described former chip, and the second contact of described regeneration chip is corresponding with described second model printer, makes target print cartridge carry out communicating with the second model printer by its contact.

2. former chip data adjustment, described data modification unit or described data replacement unit can realize modifying to the ink amount data of former print cartridge and cartridge model data or replacing, and make target print cartridge by the authentication checks of the second model printer.

3. spout signal conversion, because the first model printer is different with the model of the second model printer, the rule of its communication protocol, data composition is also likely different.Described regeneration chip is changed the secondary signal printer head control signal from described second model printer, makes described former chip correctly can identify shower nozzle control signal from described second model printer.

4. former chip electrical quantity adjustment, described regeneration chip also can the circuit of former chip adjust, and makes described target print cartridge by described second model printer to the detection of its contact.

5. logical signal conversion, because the first model printer is different with the model of the second model printer, its operation rule carrying out logic detection also may be different.Described regeneration chip, respectively to the second printer logic detection signal from described secondary signal printer and change from the logic detection feedback signal of described former chip, makes described target print cartridge by the logic detection of described second model printer.

By described ink cartridge regenerating method, described second model printer can be manipulated target print cartridge, realize print line work.

The present invention has following beneficial effect:

1. get through the barrier that print cartridge reclaims market different series print cartridge recovery, reduce the recycling cost of print cartridge.

2. achieving ink box regenerating utilizes in process, and the conversion of print cartridge between different series/model, improves the utilization rate of print cartridge.

3., by the conversion between different series print cartridge, regeneration market can be met as required to the regeneration requirements of different series print cartridge.

4. regeneration chip structure is simple, and simple installation, reduces the production cost of the regeneration of print cartridge.

5. regeneration chip achieves the matching connection of former print cartridge and target print cartridge, electric parameter adjusts and Data Format Transform, settles at one go, simple to operation.

6., after ink horn of regeneration puts goods on the market, again can reclaim and be the print cartridge of arbitrarily series or model again.

Accompanying drawing explanation

Fig. 1 print cartridge A and contact schematic diagram thereof.

Fig. 2 print cartridge B and contact schematic diagram thereof.

Fig. 3 regeneration chip front schematic view.

Fig. 4 regeneration chip schematic rear view.

Fig. 5 regeneration chip structural representation.

Fig. 6 data modification unit connection diagram.

Fig. 7 first model printer head control signal sequential chart.

Fig. 8 second model printer head control signal sequential chart.

Fig. 9 spout signal converting unit connection diagram.

Figure 10 electrical quantity adjustment unit connection diagram.

Figure 11 logic conversion unit connection diagram.

Figure 12 data replacement unit connection diagram.

Figure 13 logic conversion unit connection diagram two.

Wherein, 1-substrate, 11-first contact, 12-second contact, 13-change-over circuit, 14-locating hole, 15-test contact.

Detailed description of the invention

Below in conjunction with accompanying drawing, embodiments of the present invention are described in detail.The general principle of the technical program be based on different series between communications command roughly the same, printer can be realized to print cartridge efficient communication by the adjustment of regeneration chip.

Embodiment one

Print cartridge A and print cartridge B is respectively the print cartridge of two different series, and wherein print cartridge A is for corresponding to the first model ink-cases of printers, and print cartridge B is the print cartridge corresponding to the second model printer.Print cartridge A and print cartridge B, by the contact printer communication corresponding with it, has coordinated printing with printer.The contact of print cartridge comprises: the ADDR contact be connected with the address wire (ADDR) of printer, the CLK contact be connected with the clock line (CLK) of printer, the LOAD contact be connected with the enable line (LOAD) of printer, and the Pt_Ctrl contact etc. be connected with the control line (Pt_Ctrl) of printer.In the present embodiment, as shown in Figure 1, as shown in Figure 2, the contour structures of print cartridge A and print cartridge B, number of contacts and contact are arranged all not identical for the contact of print cartridge B and contour structures for the contact of print cartridge A and contour structures.

By the print cartridge A(reclaimed from the market and former print cartridge) be regenerated as the ink horn of regeneration (i.e. target print cartridge) mated with the second model printer, make ink horn of regeneration can with the second model printer with the use of completing printing.Ink horn of regeneration should have and contour structures like print cartridge category-B, makes it can be installed in the second model printer; The number of contacts identical with print cartridge B should be had, arrange and contact position in contact, the contact of ink horn of regeneration can be electrically connected with the contact of the second model printer, for the communication of ink horn of regeneration and the second model printer provides physical basis; Ink horn of regeneration should be able to have communicated corresponding printing to the second model printer further.

Therefore, following three aspects are comprised by regenerating by the print cartridge A corresponding with the first model printer reclaiming market recovery the operation being converted to the target print cartridge corresponding with the second model printer:

1. print cartridges structure adjustment, the print cartridge size of adjustment print cartridge A is consistent with target print cartridge with nozzle position.Specifically comprise:

Print cartridge size adjusting, by cutting and/or the print cartridge size of Joining Technology adjustment print cartridge A and the print cartridge of target print cartridge measure-alike.

Nozzle position adjusts, identical with the nozzle position of target print cartridge or by fixture print cartridge A located and mill is carried out to print cartridge A and to cut or supplementary by the nozzle position of fill process adjustment print cartridge A, identical with the nozzle position of target print cartridge with the nozzle position realizing print cartridge A.

2. cartridge filling, fills ink in the cartridge of print cartridge A.Be specially: the cartridge of cleaning print cartridge A, and in the cartridge of print cartridge A, fill corresponding ink.

3. ink box chip adjustment, the chip contacts of adjustment print cartridge A is consistent with target print cartridge.Specifically comprise:

A) clear up contact, remove spot and the oxide layer on the surface of the chip contacts of print cartridge A;

B) adhering chip, affixes to regeneration chip on print cartridge A, and the first contact of regeneration chip is contacted with the chip contacts of print cartridge A.

C) weld, the chip of regeneration chip with print cartridge A is welded, the first contact of regeneration chip is electrically connected with the chip contacts of print cartridge A.

Concrete to the step that print cartridge A regenerates is:

Step one. the print cartridge A that printer or Equipment Inspection are reclaimed, confirms print cartridge A whether recoverable.

Step 2. nozzle position adjusts, and the nozzle position realizing print cartridge A is identical with the nozzle position of target print cartridge.

Step 3. protection shower nozzle, the shower nozzle of print cartridge A sticks diaphragm.

Step 4. uncap, the top cover of print cartridge A is taken out.Alcohol simply immersing can be used to pry open with cutter after 2 seconds.

Step 5. remove sponge, inner for the cartridge of print cartridge A sponge is taken out in order to avoid ink flashes when cutting.

Step 6. cutting print cartridge, cuts away print cartridge A higher than the part of target print cartridge.

Step 7. fill ink, ink is in the cartridge of print cartridge A again.

Step 8. top cover, again seal with the top cover of glue by print cartridge A.

Step 9. cleaning contact, can adopt the chip contacts surface of the wiping print cartridge A such as alcohol, its surface blot and oxide layer be removed.

Step 10. stick chip, first the adhesive film at the regeneration chip back side is exposed, aim at 4 locating dowels of print cartridge A with 4 of regeneration chip locating holes, regeneration chip is attached on print cartridge A.After noticing that stickup completes, must compacting again, avoid the double faced adhesive tape of adhesive film to upspring.

Step 11. detector is tested, and the print cartridge A pasting regeneration chip is put into ink box detector and tests, and can weld after test OK.Also can directly go up printer to test.

Step 12. welding, each contact solder horn of regeneration chip is welded.The temperature of solder horn is set to 200 degree, and the weld interval of single contact may not exceed 3 seconds, prevents scolding tin from flowing into contact, side too much and causes short circuit, thus occurs the phenomenon that upper machine is not recognized.

Step 13. the print cartridge completed in step 12 is mounted on the second model printer and carries out examination with computer.Print cartridge have passed examination with computer, has represented process print cartridge A being regenerated as the ink horn of regeneration corresponding with the second model printer, ink box regenerating success.This ink horn of regeneration can, as print cartridge B, be arranged in the second model printer, has coordinated to print normally to wait operation with the second model printer.

Regeneration chip comprises the substrate 1 be provided with for carrying change-over circuit 13, is arranged at the first contact 11 of substrate front side, is arranged at the second contact 12 of substrate back.Substrate 1 also comprises adhesive film, locating hole 14 and test contact 15.Wherein adhesive film is arranged at the front of substrate 1, for by base plate bonding in print cartridge A, regeneration chip is fixedly connected with print cartridge A.Locating hole 14 can coordinate with the locating dowel on print cartridge A and positions regeneration chip, and the chip contacts one_to_one corresponding of the first contact and print cartridge A being arranged on regeneration chip front is contacted.Test contact 15 is electrically connected with change-over circuit 13, for carrying out burning program or test to regeneration chip.

The front and back structural representation of the regeneration chip for the print cartridge reclaimed from the market A being regenerated as the ink horn of regeneration mated with the second model printer is respectively shown in Fig. 3, Fig. 4.The quantity of the first contact 11 and the chip contacts of print cartridge A with arrange identical, for being electrically connected with the chip contacts of print cartridge A, the signal of telecommunication of the chip from print cartridge A can be received, also the signal of telecommunication can be sent to the chip of print cartridge A.The quantity of the second contact 12 and the chip contacts of print cartridge B with arrange identical, for being electrically connected with the second model printer, the signal of telecommunication from the second model printer can be received, also the signal of telecommunication can be sent to the second model printer.Change-over circuit 13 receives and the signal of telecommunication changed from the second contact 12 and the first contact 11 makes ink horn of regeneration can respond the control of the second model printer by the authentication checks of the second model printer.

As Fig. 5, change-over circuit is electrically connected with the first contact, and change-over circuit is electrically connected with the second contact.In order to realize the conversion of print cartridge A to target print cartridge, regeneration chip provides physical basis except needing the communication for ink horn of regeneration and the second model printer, also need according to the difference between print cartridge A and target print cartridge, the chip of print cartridge A is transformed, and the data that the chip changing the second model printer and print cartridge A exports.Thus realize the second model printer to the control of ink horn of regeneration, make ink horn of regeneration can complete printing according to the control of the second model printer.Therefore, the change-over circuit 13 of regeneration chip specifically comprises further: data modification unit, spout signal converting unit, electrical quantity adjustment unit, logic conversion unit.

1) data modification unit

Fig. 6 is data modification unit connection diagram.Data communication be print cartridge by the fundamental prerequisite of printer to its certification, data content includes the contents such as the ink amount data of ink remaining amount that represent print cartridge and cartridge model.The data storage cell of print cartridge A adopts as irreversible memories such as fuse memories.Its ink remaining amount reduces gradually along with the use of print cartridge, and cannot recover, and just cannot re-use after the ink in print cartridge uses.Regeneration to carry out print cartridge uses, and now just needs to use regeneration chip to carry out ink amount to it and repairs.The data storage cell of print cartridge A also stores cartridge model data except depositing ink reservoir volume data, and namely different printer model correspondence uses the print cartridge of different model.The print cartridge being A as model can only be applicable to the printer that type is A, and cannot be used in the printer of other models, even if other characteristics of printer (communication, control, detection etc.) are consistent with print cartridge A, also cannot use.So, when we are when being regenerated as target print cartridge by print cartridge A, the cartridge model data stored in the chip to print cartridge A are just needed to modify.But cartridge model data are stored in the irreversible memory cell of print cartridge A, directly cannot modify to its cartridge model data.Now just need by the data modification unit of regeneration chip modifying.The data modification unit of regeneration chip is electrically connected with the first contact and the second contact, to rewrite the ink amount data and cartridge model data that store in the chip of print cartridge A, makes ink horn of regeneration can by the second model printer certification.

2) spout signal converting unit

Fig. 7 is the sequential chart of the first model printer head control signal.First model printer has 3 address wires: ADDR1, ADDR2, ADDR3, respectively the corresponding selection controlling C, M, Y nozzle address of print cartridge A.First model printer carries out shower nozzle point selection by the command in combination of CLK, LOAD, ADDR line.After a selected shower nozzle point, when the next clock cycle arrives, two control lines: the signal of telecommunication on Pt_Ctrl1 and Pt_Ctrl2 drags down simultaneously, control the shower nozzle ink-jet of print cartridge A.

Fig. 8 is the sequential chart of the second model printer head control signal.Second model printer has 6 address wires, wherein address wires: the color that ADDR3, ADDR4, ADDR6 are corresponding is respectively C, M, Y, and remaining address line does not participate in nozzle printing directly.Same second model printer passes through control line: the shower nozzle ink-jet dragging down to control print cartridge B of the signal of telecommunication on Pt_Ctrl1, Pt_Ctrl2.Control line Pt_Ctrl1 with Pt_Ctrl2 to drag down the duration totally consistent, but time of origin there are differences.The 0.4us of Pt_Ctrl2 after the signal of telecommunication of Pt_Ctrl1 drags down release starts its signal of telecommunication and drags down action.

As can be seen from above-mentioned analysis, first model printer and the second model printer head control signal difference be mainly the sequential of control line Pt_Ctrl1 and Pt_Ctrl2: Pt_Ctrl1 and Pt_Ctrl2 of the first model printer starts the signal of telecommunication simultaneously and drags down action, simultaneously tenth skill; First time drags down duration 0.6us, and second time drags down duration 0.75us, and 0.8us(concrete sequential in interval is shown in Fig. 7).Successively starting the signal of telecommunication drags down action for Pt_Ctrl1 and Pt_Ctrl2 of the second model printer, and after the signal of telecommunication of Pt_Ctrl1 drags down release, 0.4us, Pt_Ctrl2 just start its signal of telecommunication and drag down action; Further, first time drags down duration 0.2us, and second time drags down duration 0.84us, and 0.4us(concrete sequential in interval is shown in Fig. 8).

In addition, the difference that may exist also has: for selecting the address wire of shower nozzle point different, the order in the address wire selecting shower nozzle point is not equal.

The spout signal converting unit of regeneration chip receives the second model printer head control signal from the second contact, and the first model printer head control signal being converted to the shower nozzle control law meeting the first model printer accordingly exports the chip of print cartridge A to through the first contact.Fig. 9 is the connection diagram of spout signal converting unit:

Second model printer sends the second model printer head and controls signal to ink horn of regeneration, ink horn of regeneration receives the second model printer head control signal by the second contact of regeneration chip, and determines the shower nozzle point selected by the second model printer by the identification of spout signal converting unit.The shower nozzle point of spout signal converting unit selected by the second model printer, according to the shower nozzle control law of the first model printer, the chip that the first model shower nozzle meeting the shower nozzle control law of the first model printer controls signal to print cartridge A is exported, to select the shower nozzle point of print cartridge A through the first contact of regeneration chip.After choosing shower nozzle point, spout signal converting unit is again according to the shower nozzle control law of the first model printer, export through the first contact of regeneration chip the Pt_Ctrl signal meeting the shower nozzle control law of the first model printer, control the time out of ink of the shower nozzle point of the print cartridge A selected.

First model printer also likely exists with the shower nozzle control signal of the second model printer: the shower nozzle point selection order of the first model printer and the second model printer is the same, the time point that the signal of telecommunication of Pt_Ctrl line drags down there are differences, the situation that the time span that the signal of telecommunication of Pt_Ctrl line drags down is more or less the same.In practical application, if this control difference of the first model printer and the second model printer Pt_Ctrl line within the range of permission, the second model printer head control signal that second model printer sends can directly act on the chip of print cartridge A, therefore directly the second model printer head control signal from the second contact can be exported to the chip of print cartridge A through described first contact.

Also likely there is the different situation of number of Pt_Ctrl holding wire in the shower nozzle control signal of the first model printer and the second model printer.At this time spout signal converting unit can arrange the special logic gates pair multiple Pt_Ctrl holding wires be electrically connected with the second contact and integrates, then the chip being imported print cartridge A by the first contact is to realize the control to the shower nozzle of print cartridge A.

3) electrical quantity adjustment unit

Printer can detect the electrical quantity of ink box chip contact, judges whether ink box chip occurs the situation of short circuit, avoids the ink box chip of short circuit to cause damage to himself and printer after working on power.The chip of print cartridge A designs pull down resistor on each holding wire be connected with printer, and the impedance of this pull down resistor can play a protective role to the chip of print cartridge A and the printer be connected electrically in certain circumstances.If when the chip short circuit of print cartridge A, the impedance of this pull down resistor can change, the printer be electrically connected with print cartridge A detects the impedance of this pull down resistor, just can judge the short-circuit conditions of the chip of print cartridge A, avoid the chip of print cartridge A to cause damage to the printer be connected electrically and chip itself after working on power.But the pull down resistor of the print cartridge of different model is inconsistent or some chip does not have pull down resistor at all.Also the difference of other electric parameters may be there is in the print cartridge of different model, as the pull-up of holding wire, and the difference of the connection (diode and resistance etc. are connected) between unlike signal line.Figure 10 is electrical quantity adjustment unit connection diagram, and the electrical quantity adjustment unit of regeneration chip is connect by the chip electrical of the first contact and print cartridge A, the electrical quantity of the chip of adjustment print cartridge A, makes ink horn of regeneration can by the electrical parameters detection of the second model printer.Electrical quantity adjustment unit can comprise the adjustment of the electrical quantity such as adjustment, impedance, capacitive reactance of voltage x current to the adjustment of the chip of print cartridge A.

4) logic conversion unit

In order to whether the circuit logic detecting ink box chip is normal, printer sends logic detection order, this order has multiple holding wire to combine, ink box chip starts after receiving order to carry out logical operation, finally show that operation result feeds back to printer, whether printer can be judged print cartridge internal logic by operation result in normal operation.

Such as, it is formula 1 that logic is detected in the inside of corresponding with the first model printer print cartridge A:

And to detect logic be formula 2 in the inside of the print cartridge B corresponding with the second model printer:

When with print cartridge A be former print cartridge carry out being regenerated as the ink horn of regeneration corresponding with the second model printer time, the second model printer 2 is examination criteria with the formula, and the second printer sends the sense command be made up of CLK, ADDR0 ~ 5, LOAD, P1 ~ 3 signals.And the chip of print cartridge A corresponding to the first model printer 1 carries out logical operation for examination criteria with the formula.Therefore, when carrying out logic detection, can there is unmatched problem in the chip of print cartridge A and the second model printer.

Therefore, the logic conversion unit as Figure 11 regeneration chip is electrically connected with the second contact and the first contact respectively.Concrete, logic conversion unit comprises detection signal logical operation module and feedback signal logical operation module.Logic conversion unit receives from the second model printer logic detection signal of the second contact, and the first model printer logic detection signal that signal logic computing module is converted to the logic detection rule (i.e. formula 1) meeting the first model printer accordingly according to formula 2 after testing exports through the first contact.The first model printer logic that logic conversion unit receives from the first contact detects feedback signal, and is converted to the second model printer logic detection feedback signal of the logic detection rule (i.e. formula 2) meeting the second model printer accordingly through described second contact output through feedback signal logical operation module according to formula 1.Make ink horn of regeneration can by the logic conversion unit of the logic detection of described second model printer.

Such as, in the present embodiment, through detection signal logical operation module, the signal of telecommunication on P1, P2, P3 holding wire is carried out logic and operation received the signal of telecommunication on P1, P2, P3 holding wire of the second printer by the second contact of regeneration chip after, and operation result is sent to the chip contacts P1 of print cartridge A through the first contact.The chip of print cartridge A receives the first model printer logic detection signal exported through logic conversion unit conversion by the first contact of the regeneration chip be connected electrically, and after carrying out logical operation according to formula 1, show that the first model printer logic detects feedback signal, and feed back output by the contact CHK of print cartridge A.But this first model printer logic detects feedback signal and still there are differences with the result meeting the second model printer logic testing requirement.By feedback signal logical operation module, logic detection feedback is carried out the second model printer logic detection feedback signal that logical inverse computing obtains meeting the second model printer logic testing requirement, and export the second model printer to by the second contact of regeneration chip, to complete the logic detection of the second model printer.

The ink horn of regeneration regenerated by above-mentioned ink cartridge regenerating method with the communication means of the printer system that the second model groups of printers becomes is:

The ink amount data stored in the chip of regeneration chip amendment or replacement print cartridge A and cartridge model data, make the ink amount data of ink horn of regeneration be non-black total number certificate, the cartridge model data of ink horn of regeneration mated with the second model printer.Wherein, non-black total number certificate, represents that the excess ink of print cartridge is greater than the ink amount data of the minimum ink quantity of ink that printer allows.

Regeneration chip receives the second model printer head control signal from the second model printer and the second model printer head control signal is converted to the first model printer head control signal of the shower nozzle control law meeting the first model printer accordingly, is sent to the chip of print cartridge A.

Regeneration chip receives the second model printer logic detection signal from the second model printer, and the second model printer logic detection signal is converted to the first model printer logic detection signal of the logic detection rule meeting the first model printer accordingly, be sent to the chip of print cartridge A; The first model printer logic that regeneration chip receives from former chip detects feedback signal, and the first model printer logic is detected the second model printer logic detection feedback signal that feedback signal is converted to the logic detection rule meeting the second model printer accordingly, and be sent to Second-Type printer.

Embodiment two

As Figure 12, the data modification unit of the change-over circuit of regeneration chip is revised as data replacement unit accordingly.Ink horn of regeneration does not use ink amount data and the cartridge model data of the chip of print cartridge A.The connection of the DATA line of the data storage cell of the chip of print cartridge A and printer is disconnected.The data replacement unit of regeneration chip is electrically connected with the second model printer by the second contact, to replace the ink amount data and cartridge model data that store in the chip of print cartridge A, makes ink horn of regeneration can by the second model printer certification.

Embodiment three

As Figure 13, ink horn of regeneration does not use the chip of print cartridge A to carry out logic detection to the chip of print cartridge A.The connection of the coherent signal line of the unit of the logic detection of the chip of print cartridge A and printer is disconnected.The logic conversion unit of regeneration chip is electrically connected with the second model printer by the second contact, directly replaces the logic detection unit of the chip of print cartridge A, and ink horn of regeneration can be detected by the second model printer logic.

Embodiment recited above is only be described the preferred embodiment of the present invention, not limits the spirit and scope of the present invention.Under the prerequisite not departing from design concept of the present invention; the various modification that this area ordinary person makes technical scheme of the present invention and improvement; all should drop into protection scope of the present invention, the technology contents of request protection of the present invention, all records in detail in the claims.

Claims (27)

1. an ink horn of regeneration, comprises the cartridge body and regeneration chip that are provided with former chip, and described former chip is corresponding with the first model printer, it is characterized in that: the structure of described cartridge body and the structure of the second model printer match; Described regeneration chip and described former chip electrical connect and described ink horn of regeneration and the second model printer are matched, and described regeneration chip at least makes described ink horn of regeneration can communicate with described second model printer.

2. a kind of ink horn of regeneration according to claim 1, is characterized in that: described former chip comprises the former chip contacts for being electrically connected with described first model printer; Described regeneration chip comprises the second contact, the first contact and is electrically connected the change-over circuit of described second contact and described first contact; Described second contact is used for being electrically connected with described second model printer, described first contact is electrically connected with described former chip contacts, and described change-over circuit can receive and the signal of telecommunication changed from described second contact and described first contact makes described ink horn of regeneration can respond the control of described second model printer by the authentication checks of described second model printer.

3. a kind of ink horn of regeneration according to claim 2, is characterized in that: described change-over circuit comprises data modification unit or data replacement unit; The ink amount data stored in the described former chip of described data modification unit amendment and cartridge model data, make described ink horn of regeneration can by described second model printer certification, described data modification unit is electrically connected with described second contact, and described data modification unit is electrically connected with described first contact; Described data replacement unit replaces the ink amount data and cartridge model data that store in described former chip, makes described ink horn of regeneration can by described second model printer certification, and described data replacement unit is electrically connected with described second contact.

4. a kind of ink horn of regeneration according to claim 3, it is characterized in that: described change-over circuit comprises spout signal converting unit, described spout signal converting unit is electrically connected with described second contact, and described spout signal converting unit is electrically connected with described first contact; Described spout signal converting unit receives the second model printer head control signal from described second contact, and described second model printer head control signal is converted to the first model printer head control signal of the shower nozzle control law meeting described first model printer accordingly and exports through described first contact.

5. a kind of ink horn of regeneration according to claim 4, it is characterized in that: the described change-over circuit electrical quantity comprised for adjusting described former chip makes described ink horn of regeneration can by the electrical quantity adjustment unit of the electrical parameters detection of described second model printer, and described electrical quantity Circuit tuning is electrically connected with described first contact.

6. a kind of ink horn of regeneration according to claim 4, it is characterized in that: described change-over circuit comprises and makes described ink horn of regeneration can by the logic conversion unit of the logic detection of described second model printer, described logic conversion unit is electrically connected with described second contact, and described logic conversion unit is electrically connected with described first contact.

7. a kind of ink horn of regeneration according to claim 6, is characterized in that: described logic conversion unit comprises detection signal logical operation module and feedback signal logical operation module; Described logic conversion unit receives the second model printer logic detection signal from described second contact, and the first model printer logic detection signal being converted to the logic detection rule meeting described first model printer accordingly through described detection signal logical operation module exports through described first contact; The first model printer logic that described logic conversion unit receives from the first contact detects feedback signal, and the second model printer logic being converted to the logic detection rule meeting described second model printer accordingly through described feedback signal logical operation module detects feedback signal through described second contact output.

8. a kind of ink horn of regeneration according to claim 1 or 2 or 3 or 4 or 5 or 6 or 7, it is characterized in that: described regeneration chip is provided with the substrate for carrying described change-over circuit, the one side of described substrate arranges the adhesive film being used for being fixedly connected with described cartridge body.

9. a kind of ink horn of regeneration according to claim 8, is characterized in that: described substrate arranges the locating hole being used for locating with described cartridge body.

10. a kind of ink horn of regeneration according to claim 8, it is characterized in that: described substrate arranges test contact, described test contact is electrically connected with described change-over circuit.

11. 1 kinds of regeneration chips, for being the ink horn of regeneration mated with the second model printer by the former ink box regenerating mated with the first model printer; Described regeneration chip comprises the second contact, the first contact and is electrically connected the change-over circuit of described second contact and described first contact; It is characterized in that: described second contact is used for being electrically connected with described second model printer, described first contact is used for being electrically connected with the former chip contacts of described former print cartridge, and described change-over circuit receives and the signal of telecommunication changed from described second contact and described first contact makes described ink horn of regeneration can respond the control of described second model printer by the authentication checks of described second model printer.

12. a kind of regeneration chips according to claim 11, is characterized in that: described change-over circuit comprises data modification unit or data replacement unit; Described data modification unit is for revising the ink amount data and cartridge model data that store in described former chip, make described ink horn of regeneration can by described second model printer certification, described data modification unit is electrically connected with described second contact, and described data modification unit is electrically connected with described first contact; Described data replacement unit replaces the ink amount data and cartridge model data that store in described former chip, makes described ink horn of regeneration can by described second model printer certification, and described data replacement unit is electrically connected with described second contact.

13. a kind of regeneration chips according to claim 12, it is characterized in that: described change-over circuit comprises spout signal converting unit, described spout signal converting unit is electrically connected with described second contact, and described spout signal converting unit is electrically connected with described first contact; Described spout signal converting unit receives the second model printer head control signal from described second contact, and described second model printer head control signal is converted to the first model printer head control signal of the shower nozzle control law meeting described first model printer accordingly and exports through described first contact.

14. a kind of regeneration chips according to claim 13, it is characterized in that: described change-over circuit comprises the electrical quantity for adjusting described former chip, make described ink horn of regeneration can by the electrical quantity adjustment unit of the electrical parameters detection of described second model printer, described electrical quantity Circuit tuning be electrically connected with described first contact.

15. a kind of regeneration chips according to claim 13, it is characterized in that: described change-over circuit comprises and makes described ink horn of regeneration can by the logic conversion unit of the logic detection of described second model printer, described logic conversion unit is electrically connected with described second contact, and described logic conversion unit is electrically connected with described first contact.

16. a kind of regeneration chips according to claim 15, is characterized in that: described logic conversion unit comprises detection signal logical operation module and feedback signal logical operation module; Described logic conversion unit receives the second model printer logic detection signal from described second contact, and the first model printer logic detection signal being converted to the logic detection rule meeting described first model printer accordingly through described detection signal logical operation module exports through described first contact; The first model printer logic that described logic conversion unit receives from the first contact detects feedback signal, and the second model printer logic being converted to the logic detection rule meeting described second model printer accordingly through described feedback signal logical operation module detects feedback signal through described second contact output.

17. a kind of regeneration chips according to claim 11 or 12 or 13 or 14 or 15 or 16, it is characterized in that: described regeneration chip is provided with the substrate for carrying described change-over circuit, the one side of described substrate arranges the adhesive film being used for being fixedly connected with described cartridge body.

18. a kind of regeneration chips according to claim 17, is characterized in that: described substrate arranges the locating hole being used for locating with described cartridge body.

19. a kind of regeneration chips according to claim 17, it is characterized in that: described substrate arranges test contact, described test contact is electrically connected with described change-over circuit.

20. 1 kinds of printer system communication means, be applicable to the printer system comprising the second model printer and ink horn of regeneration, described ink horn of regeneration comprises the former chip and regeneration chip that match with the first model printer, described second model printer is electrically connected with described regeneration chip, and described former chip is electrically connected with described regeneration chip; Described regeneration chip receives and changes the signal of telecommunication from described second model printer and described former chip, makes described ink horn of regeneration also can be responded the control of described second model printer by the authentication checks of described second model printer; It is characterized in that: the ink amount data and cartridge model data that store in described former chip are revised or replaced to described regeneration chip, make the ink amount data of described ink horn of regeneration be non-black total number certificate, the cartridge model data of described ink horn of regeneration are mated with described second model printer;

Wherein, non-black total number certificate, represents that the excess ink of print cartridge is greater than the ink amount data of the minimum ink quantity of ink that printer allows.

21. a kind of printer system communication means according to claim 20, it is characterized in that comprising: described regeneration chip receives the second model printer head control signal from described second model printer and described second model printer head control signal is converted to the first model printer head control signal of the shower nozzle control law meeting described first model printer accordingly, is sent to described former chip.

22. a kind of printer system communication means according to claim 21, is characterized in that comprising:

Described regeneration chip receives the second model printer logic detection signal from described second model printer, and described second model printer logic detection signal is converted to the first model printer logic detection signal of the logic detection rule meeting described first model printer accordingly, be sent to described former chip; The first model printer logic that described regeneration chip receives from described former chip detects feedback signal, and described first model printer logic is detected the second model printer logic detection feedback signal that feedback signal is converted to the logic detection rule meeting described second model printer accordingly, and be sent to described second model printer.

23. 1 kinds of ink cartridge regenerating methods, for being the target print cartridge matched with the second model printer by the former ink box regenerating matched with the first model printer; It is characterized in that this ink cartridge regenerating method comprises:

Print cartridges structure adjusts, and the print cartridge size adjusting described former print cartridge is consistent with described target print cartridge with nozzle position;

Cartridge filling, fills ink in the cartridge of described former cartridge body;

Ink box chip adjusts, and the chip contacts adjusting former print cartridge is consistent with described target print cartridge.

24. a kind of ink cartridge regenerating methods according to claim 23, is characterized in that: described print cartridges structure adjustment comprises:

Print cartridge size adjusting, measure-alike by the print cartridge of cutting and/or the Joining Technology adjustment print cartridge size of described former print cartridge and described target print cartridge.

25. a kind of ink cartridge regenerating methods according to claim 23, is characterized in that: described print cartridges structure adjustment comprises:

Nozzle position adjusts, the nozzle position of described former print cartridge is adjusted identical with the nozzle position of described target print cartridge or located by fixture and mill is carried out to described former print cartridge by described former print cartridge and cut or supplement by fill process, identical with the nozzle position of described target print cartridge with the nozzle position realizing former print cartridge.

26. a kind of ink cartridge regenerating methods according to claim 23, is characterized in that: described ink box chip adjustment comprises:

A) clear up contact, remove spot and the oxide layer on the surface of the chip contacts of described former print cartridge;

B) adhering chip, affixes to regeneration chip on described former print cartridge, and the first contact of described regeneration chip is contacted with the chip contacts of described former print cartridge.

27. a kind of ink cartridge regenerating methods according to claim 26, is characterized in that: described ink box chip adjustment also comprises:

C) weld, the chip of regeneration chip with described former print cartridge is welded, the first contact of described regeneration chip is electrically connected with the chip contacts of described former print cartridge.